Combination of High Pressure and Heat Treatment in a Single System Streamlines AM Processes
Vasteras, Sweden (PRWeb) March 30, 2021 -- The Quintus Technologies Hot Isostatic Press (HIP) to be delivered to the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM in Dresden will permit researchers to deepen their expertise and refine processes for pressure-supported heat treatment, used to maximize theoretical density, ductility, and fatigue resistance in high-performance materials.
Applications for the new system include the Hot Isostatic Pressing and heat treatment of specialty materials such as nickel-based superalloys and intermetallic compounds like titanium aluminides, as well as densification of the unconventional microstructures associated with additive manufacturing (AM).
The press model QIH 15L incorporates heat treatment and cooling in a single process known as High Pressure Heat Treatment™ (HPHT™). HPHT combines stress-relief annealing, HIP, high-temperature solution-annealing (SA), high pressure gas quenching (HPGQ), and subsequent ageing or precipitation hardening (PH) in one integrated furnace cycle.
Consolidating these multiple steps in the HIP process brings several benefits for Fraunhofer IFAM. Several functions can be performed in a single location with fewer pieces of equipment on the production line. The Quintus press produces faster throughput and higher work piece quality. It also enhances efficiency and dramatically reduces per-unit processing costs while generating significant savings in space, energy, and infrastructure.
The QIH 15L is equipped with Quintus’s Uniform Rapid Quenching® (URQ®) technology, which achieves an impressive cooling rate of 1000K/minute while minimizing thermal distortion and non-uniform grain growth, for finished 3D printed parts with optimal material properties. The press’s furnace chamber has a diameter of 6.69 inches (170 mm) and a height of 11.4 inches (290 mm) and operates at a maximum pressure of 200  MPa (30,000 psi) and a maximum temperature of 2,552°F (1,400°C).
Acquiring the Quintus HIP allows Fraunhofer IFAM researchers to “strengthen their technological expertise in the field of pressure-supported heat treatment,” comments Dr. Thomas Weißgärber, Director of the Branch Lab. “The new system is not only used for R&D projects but is also available as a service for carrying out predefined HIP cycles.”
“As the industry leader in advanced Hot Isostatic Pressing technology for over 60 years, we have noted exceptional interest in new approaches that improve quality, lower cost, and reduce environmental impacts,” says Jan Söderström, CEO of Quintus Technologies. “HPHT is rapidly emerging as the go-to post-processing path to lean AM operations, and we are delighted to be working with Fraunhofer IFAM as its talented researchers expand the potential for high pressure and heat treatment.”
The new system will be installed in the Innovation Center Additive Manufacturing ICAM® of Fraunhofer IFAM Dresden, where various technologies for additive manufacturing are a major focus.
About Quintus Technologies
Quintus Technologies is the global leader in high pressure technology. The company designs, manufactures, installs, and supports high pressure systems for sheet metal forming and densification of advanced materials. Quintus has delivered over 1,900 systems to customers within industries such as aerospace, automotive, energy, and medical implants. The company is headquartered in Västerås, Sweden, with a presence in 45 countries worldwide. For more information, visit https://quintustechnologies.com/
About Fraunhofer IFAM Dresden
The Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM is one of the leading research institutes worldwide in the field of powder metallurgical technologies and sintered and composite materials for functional applications. It offers innovative solutions in the fields of mobility, mechanical engineering, electronics, aerospace, energy, and medical technology. The institute is distinguished by its strong interdisciplinary team in the fields of materials and production engineering, process engineering, mechatronics, chemistry and physics. For more information, go to https://www.ifam-dd.fraunhofer.de.